EP0649254A1 - Verfahren zur Speicherung von kodierten Bilddaten - Google Patents

Verfahren zur Speicherung von kodierten Bilddaten Download PDF

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Publication number
EP0649254A1
EP0649254A1 EP94202922A EP94202922A EP0649254A1 EP 0649254 A1 EP0649254 A1 EP 0649254A1 EP 94202922 A EP94202922 A EP 94202922A EP 94202922 A EP94202922 A EP 94202922A EP 0649254 A1 EP0649254 A1 EP 0649254A1
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EP
European Patent Office
Prior art keywords
image
data stream
images
series
coding
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Granted
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EP94202922A
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English (en)
French (fr)
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EP0649254B1 (de
Inventor
Joseph Hubertus Peters
Petrus Cornelis Gerardus Van Der Hijden
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Koninklijke Philips NV
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Koninklijke Philips Electronics NV
Philips Electronics NV
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Priority claimed from BE9301087A external-priority patent/BE1007658A3/nl
Application filed by Koninklijke Philips Electronics NV, Philips Electronics NV filed Critical Koninklijke Philips Electronics NV
Priority to EP19940202922 priority Critical patent/EP0649254B1/de
Publication of EP0649254A1 publication Critical patent/EP0649254A1/de
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    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04NPICTORIAL COMMUNICATION, e.g. TELEVISION
    • H04N5/00Details of television systems
    • H04N5/76Television signal recording
    • H04N5/91Television signal processing therefor
    • H04N5/92Transformation of the television signal for recording, e.g. modulation, frequency changing; Inverse transformation for playback
    • H04N5/926Transformation of the television signal for recording, e.g. modulation, frequency changing; Inverse transformation for playback by pulse code modulation
    • H04N5/9261Transformation of the television signal for recording, e.g. modulation, frequency changing; Inverse transformation for playback by pulse code modulation involving data reduction
    • H04N5/9264Transformation of the television signal for recording, e.g. modulation, frequency changing; Inverse transformation for playback by pulse code modulation involving data reduction using transform coding
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04NPICTORIAL COMMUNICATION, e.g. TELEVISION
    • H04N19/00Methods or arrangements for coding, decoding, compressing or decompressing digital video signals
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04NPICTORIAL COMMUNICATION, e.g. TELEVISION
    • H04N5/00Details of television systems
    • H04N5/76Television signal recording
    • H04N5/84Television signal recording using optical recording
    • H04N5/85Television signal recording using optical recording on discs or drums

Definitions

  • the invention relates to a method of storing image information of moving images in coded form.
  • the invention also relates to a diagnostic system using the method.
  • the invention further relates to an image coding and recording unit and an image information retrieval unit for use in such a system.
  • the storage of moving images on a record carrier for the purpose of subsequently examining this image information is known from the SMPTE Journal, Volume 102, No. 7, July 1993, pp. 612-615.
  • Such a method can be used, for example, in so-called cardiovascular diagnosis where the cardiac function is examined by introducing a contrast medium into a blood vessel of the heart and subsequently making a series of radiographs to record how this contrast medium propagates in the blood vessels of the heart as a function of time.
  • the series of images obtained by means of the radiographs are converted into coded data streams which are subsequently recorded on a suitable record carrier, for example in the form of a magnetic or optical tape or disc.
  • the image information thus recorded is read out and displayed at later instant to analyse the cardiac function. This is effected by examining moving images and if a further examination of individual images is required stationary images are displayed. For this purpose it is desirable that each of the individual images can be displayed selectively as a still image, enabling both preceding images and subsequent images to be selected. For a correct diagnosis it is desirable that the images recovered from the coded information read from the record carrier are of the same quality as the originally recorded images.
  • This object is achieved by means of a method of recording in coded form on a record carrier image information relating to moving images for the purpose of further analysis at a later instant, the image information representing moving images in the form of a series of images which succeed one another in time, said series of images being converted into a first data stream in which each of the series of succeeding images is represented, which first data stream is subsequently recorded on the record carrier, characterised in that the series of images is converted into a second data stream in which each image of the series is represented likewise, the average amount of information per image in the first data stream being smaller than in the second data stream, and the second data stream being recorded on the record carrier together with the first data stream.
  • the method in accordance with the invention advantageously utilises the fact that for other requirements are imposed on the reproduction of moving images than on the reproduction of still images.
  • the rate at which the successive images are reproduced is high enough to achieve an impression of non-intermittent motion.
  • the image quality is considered to be less important for moving images than for still images.
  • the rate at which successive images can be reproduced is less important for the reproduction of still images.
  • the recording of the two data streams has enabled the moving images to be coded by a coding method which to an optimum extent meets the requirements imposed on the reproduction of moving images, the recording of the second data stream yet enabling each individual image to be reproduced with a high quality.
  • the fact that the time required to read out the information relating to the still image to be displayed is longer than the time between successive images during the reproduction of moving images does not pose a problem provided that it remains within acceptable limits.
  • JP-A-1-243184 discloses a device for displaying image information.
  • Moving image information in the form of a series of time sequential images are stored in irreversibly compressed form in a RAM.
  • a reversibly compressed image is stored in the RAM.
  • the irreversibly compressed images are read out, expanded and subsequently applied to an display device.
  • a reversibly compressed image is read out, expanded and applied to the display device.
  • a reversibly compressed image is available only for a very limited number of images of the series of successive images representing the moving pictures and therefore the device is not suitable for the thorough analysis of image information as required, for example, in cardiac function analysis. Indeed, for this analysis a high-quality still image is required for each of the images of the series of images forming the moving images.
  • An embodiment of the method is characterised in that reference information is recorded on the record carrier, which reference information is indicative of the locations where corresponding images are situated in the first and the second data stream.
  • This embodiment has the advantage that during the analysis which follows an interruption in the reproduction of the moving image the associated high-quality coded image in the second data stream can be located rapidly on the basis of the reference information.
  • An embodiment of the method is characterised in that the conversion of the series of images in the first data stream is of a type in which images of the series are coded by coding differences between the relevant image and another image of the series, each image in the second data stream being represented by a separately coded image which has been coded independently of the image information of other images of the series.
  • This embodiment has the advantage that as result of the redundance in the successive images a high degree of compression and, consequently, a low required read velocity can be obtained while preserving a satisfactory image quality.
  • the disadvantage of such compression techniques that arbitrary images cannot simply be retrieved does not play a part owing to the availability of the second data stream.
  • a particularly suitable image coding for obtaining the first data stream is the so-called MPEG coding.
  • a further embodiment of the method is characterised in that the series of images is also converted into a third data stream in which each image of the series is represented, the average amount of information per image in the third data stream being smaller than in the first data stream.
  • the record carrier obtained by means of this embodiment enables moving images to be reproduced smoothly by means comparatively simple and, consequently, cheap read devices which read the third data stream with a low read velocity.
  • the quality of the images reproduced on the basis of the third data stream is of a lower grade than that of images based the first and the second data stream but often the interpretation of the images does not require image reproduction with the highest quality. In many cases it is adequate to reproduce images with a lower quality. For example, when the cardiac function is discussed with another physician it is often adequate to display the image information with a lower resolution.
  • the record carrier area occupied by the lower quality image information is small in comparison with the area needed for the storage of the high quality images, so that the total amount of image information which can be recorded on a record carrier is reduced only slightly as result of the storage of the lower quality images.
  • a further embodiment of the method is characterised in that the series of images is also converted into a fourth data stream, each image being separately coded independently of the image content of the other images of the series, the average amount of information per image in the fourth data stream being smaller than in the second data stream, and the fourth data stream being recorded on the record carrier together with the first, the second and the third data stream.
  • a CD-I should contain an application program which controls the access to the stored information during the read process.
  • this application program so as to prevent the CD-I player from reading information not coded in accordance with the CD-I standard the recording of the higher quality images on a CD-I will have no consequences for the read-out of the CD-I disc by a CD-I player.
  • the read device for reading the higher resolution image information may be provided with a control system which enables the files with higher resolution image information to be read.
  • the length of a run is determined by the time required by the contrast medium to propagate in the blood vessels of the heart. This time is of the order of magnitude of ten seconds.
  • An embodiment of the method which is particularly suitable for use in the above-mentioned conditions is characterised in that at least the first and the second data stream, which have been derived from a continuous series of images, are recorded in a continuous part of the record carrier. Since with this embodiment the information relating to the moving images as well as the information relating to the still images for one run are recorded together the search time upon a change from moving image reproduction to still image reproduction (or vice versa ) is short.
  • a further embodiment is characterised in that for each continuous series of images a first part of the second data stream is recorded in such a way that it directly precedes the first data stream and a second part of the second data stream is recorded in such a way that it directly follows the first data stream.
  • This embodiment has the advantage that if it is desired to read a still image during the read-out of moving images the distance to the new the read location will only be minimal, which results in a short access time.
  • Figure 1 shows an embodiment of a diagnostic system in accordance with the invention.
  • the reference numeral 1 denotes customary means for acquiring moving-image information relating to an object 3 to be examined.
  • Such means referred to hereinafter as an image acquisition unit, may comprise customary X-ray imaging equipment for making a series of X-ray exposures of the vascular system of a human or animal heart into which a contrast medium has been introduced, which exposures succeed one another at fixed time intervals of, for example 40 ms.
  • Such X-ray imaging equipment may include a TV camera for picking up an image formed on an X-ray image intensifier.
  • the X-ray imaging equipment may also include a pick-up device for the direct electronic conversion and storage of the X-ray image.
  • image acquisition units for picking up moving images are also possible.
  • Image signals representing the acquired series of images are applied to an image coding and recording unit 2.
  • the image signals may comprise digital signals representing monochrome pictures formed by a matrix of pixels, for example 512x512 pixels, the image signal for each pixel comprising a luminance value indicating the intensity level of the relevant pixel.
  • the image coding and recording unit 2 comprises a first coding unit 4 for converting the series of images represented by the image signals into a first data stream comprising a representation of each image of the series.
  • the coding unit 4 is of a customary type adapted to compress moving images. An important requirement imposed on such compression techniques is a low average quantity of information per image. This is in order to minimise the amount of information to be transmitted per unit of time and, consequently, the required transmission bandwidth. For the reproduction of moving images the image quality of the individual images is less important because faults in the individual images during the reproduction of moving images are less conspicuous in comparison with faults in a reproduced still image.
  • the image coding and recording unit 2 comprises a second coding unit 6 for converting the series represented by the image signals into the second data stream.
  • the coding unit 6 is of a customary type optimised for encoding still images. An important requirement to be met in this respect is that the image quality of the image which can be recovered on the basis of the coded image is high. The amount of information per coded image is less important because the transmission rate with which the coded image is to be transmitted need not meet any special requirements.
  • Attractive coding techniques for coding (compressing) moving-image information are techniques which utilise the redundancy between successive images.
  • a suitable image compression technique is the so-called MPEG image compression, which has been described comprehensively inter alia by D.J. Le Gall in "The MPEG video compression algorithm”; Signal Processing: Image Communication 4(1992); pp. 129-140; Elsevier Science Publishers B.V. and "MPEG: A video compression standard for multimedia applications”; Communications of the ACM; April 1991, Vol. 34 no. 4, pp. 47-58, said publications being herewith incorporated by reference. Since the redundance between successive images is high in compression techniques utilising redundancy a substantial compression factor is attained.
  • a disadvantage of this compression technique is that for the recovery of an arbitrarily selected image information about a number of different images is required.
  • a suitable compression technique for the compression of stationary-image information is the MPEG coding technique used for coding so-called "MPEG-INTRA" images.
  • Another suitable compression technique is the so-called “JPEG” coding.
  • Still another suitable coding technique which is use d inter alia in the so-called Photo-CD system, is described in WO 91/08648 and WO 92/05651, which documents are herewith incorporated by reference.
  • the afore-mentioned compression techniques have lower compression factors that compression techniques which allow for the redundancy between successive images, so that the amount of information per coded image for compression techniques which do not allow for the redundancy between successive images is larger than in the case of compression techniques which allow for this. This means that when an image recorded on a record carrier is read out the time required for reading is comparatively long. However, the image quality is considerably better.
  • the image coding and recording unit 2 further comprises a recording device 7 for recording the first and the second data stream on one and the same record carrier 8.
  • the record carrier may be, for example, of an optical, magnetic or magneto-optical type. Record carriers of an optical or magneto-optical type are preferred owing to their high storage capacity. Although in principle a record carrier in the form of a tape may be used a disc-shaped record carrier is to be preferred because of the inherently short access times in so-called "random access" modes.
  • the recording unit 2 may be of a customary type, for example as described in EP-A-0,507,403 (PHN 13.685), which records the data streams on the record carrier in accordance with a customary recording principle and which further comprises the necessary control means for dividing the information streams among files and for adding control files with index data to control the read-out of the various data files.
  • EP-A-0,507,403 PPN 13.685
  • the recording device further comprises the necessary formatting means for suitably formatting the files.
  • a suitable format is inter alia the format as used for record carriers of the CD-ROM type as defined in the ISO 9660 standard. However, it will be obvious to those skilled in the art that numerous other formats are suitable.
  • the embodiment of the image coding and recording unit 2 uses two separate coding units. It will also be obvious to the expert that instead of two separate coding units it is possible to use one coding unit capable of performing the two required codings.
  • the two coding units can be combined simply, for example, in the case that for the compression of moving-image information the MPEG technique is used and for the coding of the stationary images the MPEG coding for so-called "INTRA" images is used.
  • two data streams are recorded on the record carrier 8, i.e . a (first) data stream enabling moving-image information being read to be reproduced steadily and a (second) data stream enabling a still image to be reproduced with a high image quality.
  • the diagnostic system comprises an image information retrieval unit 9.
  • the image information retrieval unit 9 comprises a read unit 10 of a customary type, for example as described in the afore-mentioned EP-A-0,507,403, for reading the record carrier with a read velocity for which the bit rate at which the bits of the information stream become available is high enough to ensure a steady reproduction of moving-image information.
  • a bus 11 couples the read unit 10 to said first decoding unit 12 and said second decoding unit 13.
  • the decoding unit 12 is of a customary type for recovering the moving-image information from the first data stream in a manner which is the inverse of the coding carried out by the coding unit 4 for moving-image information.
  • the second decoding unit 13 is of a customary type for recovering still-image information from the second data stream in a manner which is the inverse of the coding applied by the coding unit 6.
  • the present embodiment uses two separate decoding units 12 and 13. It will be obvious to the expert that instead of two separate decoding units it is possible to use one decoding unit capable of performing the two required codings, in which case parts of the decoding unit can be used for both decoding operations.
  • the image information retrieval unit 9 further comprises an image output unit 16 of a customary type adapted to convert the retrieved images into an output image signal, for example a video signal of a customary type suitable for an image reproducing unit 14, for example an image display unit such as a monitor or a television set.
  • the image output unit may comprise, for example, a so-called frame buffer store adapted to store the associated signal values for each pixel of the image to be displayed. Depending on a logic value of a selection signal applied via a signal line 24 the frame buffer store is loaded with the signal values of the pixels of the image information recovered by the decoding unit 12 or with the signal values of the pixels of the image information recovered by the decoding unit 13.
  • the signal values stored in the frame buffer store are read out in a given sequence and converted into the video signal.
  • the output image signal is applied to the image display unit 14 via a signal line 15.
  • the image information retrieval unit 9 comprises a control unit 17, which for this purpose is coupled to the read unit 10, the first decoding unit 12, the second decoding unit 13 and the image output unit 16.
  • the control unit 17 in the present device is of a program-controlled type having a program memory 18 loaded with a suitable program.
  • a program memory 18 loaded with a suitable program.
  • the control program is defined by the manner in which the various parts of the circuit are interconnected.
  • the control unit 17 can operate in a first mode and in a second mode.
  • the moving-image information is recovered and the recovered moving-image information is supplied under customary program control.
  • a selected coded image of the second data stream is read, the corresponding still-image information is recovered and the recovered still-image information is supplied under customary program control.
  • the control unit can be set at option to the first or the second mode in a customary manner via an operating unit 25.
  • the image information recorded on the record carrier 8 can be displayed on the image display unit 14 for analysis.
  • the user can then set the control unit 17 to the first mode via the operating unit 25 to display moving images of the object to be analysed on the image display unit 14. If the user wishes to examine a certain fragment of the displayed series of moving images more closely he can set the control unit 17 to the second mode via the operating unit 25, which for this purpose supplies a "still image" signal to the control unit. Subsequently, the user can select an image of the second data stream which corresponds to the desired fragment in order to display it as a still picture.
  • One possibility is to display image numbers together with the moving images on the image display unit 14 during the reproduction of moving images. When the reproduction of moving images is interrupted the display of the image number of the last image recovered from the first data stream may be continued. With the aid of this image number the user can then select the image to be displayed in the second mode as a stationary image.
  • the image coding and recording unit in such a manner that it records reference information on the record carrier to indicate for each of the parts where this image has been recorded in the first and the second data stream.
  • the image quality of stationary images recovered from the second data stream is substantially equal to the image quality of the images acquired by means of the image acquisition unit 1. This means that for an image acquired by the image acquisition unit 1 and consisting of a matrix of MxN pixels any pixel of the matrix can be recovered from the coded image without or substantially without faults.
  • the operating unit 25 supplies a "moving-image" signal to the control unit 17, which is then set to the second mode in response to the "moving-image" signal.
  • the last-mentioned requirement defines the required data rate with which the first data stream is to be read. Although the attainable compression factor is large the required data rate will be high in comparison with the data rate of the most customary read devices, which means that the read unit 10 in the image information retrieval unit 9 is comparatively expensive.
  • third data stream in addition to the first and the second data stream, which third data stream represents the moving-image information with a lower quality than the first data stream and in which the amount of information per image is consequently smaller than in the first data stream, which means that for reading this third data stream a lower data rate (read velocity) is adequate.
  • the third data stream can be read by read units which are cheaper than the read units for the first data stream.
  • the image coding and recording unit may be extended with a third coding unit 20 of a type which corresponds to the coding unit 4 but which provides a higher compression factor.
  • a fourth data stream representing still-image information on the record carrier 8.
  • the individual images of the series supplied by the image acquisition unit 1 can be represented in the same way as in the second data stream but with a lower image quality.
  • the fourth data stream can be obtained by means of a coding unit which codes the images received from the image acquisition unit 1 in the same way as the coding unit 6 but which provides a higher compression factor.
  • the third and the fourth data stream can be read, recovered and supplied to an image display unit 22 by means of an image information retrieval unit 21.
  • the image information retrieval unit 21 may be similar to the image information retrieval unit 9, the difference being that the bit rate (read velocity) with which the data streams are read is lower and that the decoding units used in the unit 21 perform a decoding which is the inverse of the coding applied by the coding units 20 and 23.
  • the diagnostic system shown in Figure 1 comprises only one image information retrieval unit (9) with a high bit rate and only one image information retrieval unit (21) with a low bit rate.
  • the number of image information retrieval units used in conjunction with the image coding and recording unit 2 will often be substantially larger, particularly for medical uses where diagnosis and information transfer are effected by means of the image information retrieval units. Moreover, with such uses recording and reproduction may be effected at locations and instants which differ considerably.
  • the decoding unit for recovering the image information from the fourth data stream may be omitted in the image information retrieval unit 21.
  • a so-called CD-I player adapted to reproduce so-called "Full Motion Video” is very suitable for use as an image information retrieval unit 21.
  • Full Motion Video For further information about such a player reference is made to "IEEE Transactions on Consumer Electronics, Vol. 38, no. 4, November 1992, pp. 910 to 920, herewith incorporated by reference. If a CD-I player is used in the diagnostic system it is desirable that the image coding and recording unit is loaded with a so-called application program, which is fetched and subsequently recorded in a so-called CD-I file on the record carrier by the recording unit.
  • the application program When the record carrier 8 is read by the CD-I player this application program is read into a program memory of the player. The read-out of the image information by the CD-I player is then controlled by the application program loaded into the program memory.
  • the application program is such that access to the files relating to the first and second data streams is not possible under control of the application program.
  • Figure 2 shows a suitable layout of a track 30 of the record carrier 8 with information files in which the data streams are stored.
  • the recorded information is divided into data blocks (not shown) with an address indicating the location of the data block in the track.
  • the positions of the files are shown as a function BLCKAD, which represents an address value of the block address.
  • the first, the second, the third and the fourth data stream are stored in respective image information files DS1, DS2, DS3 and DS4.
  • the track further includes a first directory file DF1 containing references to the starting addresses of moving-image information files containing the first and second data streams.
  • these are the image information files DS1 and DS2 but it will be evident that the number of image information files containing the first and the second data stream can be larger than illustrated in Figure 2.
  • the track further includes a second directory file DF2 containing references to the starting addresses of the image information files containing the third and the fourth data stream.
  • a second directory file DF2 containing references to the starting addresses of the image information files containing the third and the fourth data stream.
  • these are the image information files DS3 and DS4.
  • control programs in the image information retrieval unit 9 should only have access to image files referred to in the directory file DF1.
  • the control programs in the image information retrieval unit 21 should all have access to image files referred to in the directory file DF2.
  • Figure 3 shows a suitable layout for image files DS1.
  • the shown image file DS1 contains a coded image, CB1, CB2, CB3, ..., CBn-1 and CBn, for each of the series of images represented by the data stream in the relevant image information file.
  • Each coded image contains the coded information derived for each image by the coding unit which has generated the data stream containing the relevant image information file.
  • An image number code specifying the position of the image within the series of successive images is assigned to a number of coded images, preferably those coded images from which a complete still image can be recovered without any further information from other coded images being required. In the case of MPEG coded images an image number code is assigned to each so-called "Intra" image.
  • An MPEG coded signal may further comprise so-called "Predicted” images. A complete image can be recovered from the combination of a "Predicted” image and an associated "Intra” image. Finally, an MPEG coded image may include so-called “Bidirectional” images. A complete image can then be recovered from the combination of a “Bidirectional” image and the associated "Intra” image and "Predicted” image. The "Predicted” images and the "Bidirectional” images have not been provided with image number codes.
  • the image information file DS1 includes a table EPT containing entry points for the coded images bearing an image number code.
  • an entry point is to be understood to mean a reference code specifying the beginning of the associated coded image. This can be achieved by including the starting address of the relevant coded image in the entry-point table.
  • the reference information will include the image number codes in the coded images and the entry-point table in the image file containing the second data stream.
  • EPT entry-point table
  • the image number code of the last image supplied can now be determined in a program step of the program which has been loaded into the program memory.
  • the read device may be provided with an image counter. The count of the image counter is then incremented each time that a subsequent image is supplied.
  • the image counter can be loaded with the image number defined by the image number code.
  • the image counter is loaded at the beginning of the reproduction of a new series of images as soon as the first coded image having an image number code is recovered. Subsequently, the current image number can be updated by incrementing the count each time that an image is supplied. It is also possible to load the image counter with the image number corresponding to an image number code each time that a coded image having this image number code is recovered.
  • FIG. 5 shows an example of the image decoding unit 12 provided with an image counter 50 of the type described above.
  • the image decoding unit 12 further comprises an image decoding circuit 51, for example an MPEG decoding circuit 51.
  • An output 52 of the decoding circuit 51 supplies a counting pulse to a count input 53 of the counter 50 each time that a decoded image is supplied to the image output unit 16.
  • the content of the counter is incremented by a constant value in response to each counting pulse.
  • a load input 54 of the image counter 50 is connected to an output 55 of the image decoding circuit 51 and supplies an image number corresponding to an "Intra" image to this output each time that a decoded image corresponding to this "Intra” image is supplied.
  • the image counter is loaded with this image number when the image number is supplied to the output 55.
  • Figure 6 by way of example shows a flow chart of a program for effecting a change-over from the first mode to the second mode and vice versa.
  • the program is in a test loop which comprises a test step S1 which ascertains whether the operating unit 25 supplies the "still image" signal to the control unit 17. This test step is repeated until the "still image" signal is detected.
  • the test step S1 is followed by a subprogram SP1.
  • the subprogram SP1 the first mode is terminated.
  • the subprogram SP1 comprises a program step S2, in which reading of the first data stream from the record carrier 8 is stopped. After the step S2 has been carried out the image number of the currently supplied image is determined.
  • the image number can be determined by reading out the image counter 54.
  • the subprogram SP1 is followed by a subprogram SP2, in which the control unit 17 is set to the second mode.
  • the subprogram SP2 begins with a step S4.
  • the step S4 the starting address of the coded image in the second data stream corresponding to the image number thus determined is derived by means of the entry-point table.
  • this coded image in the second data stream is located and read out.
  • the image output unit 16 is set to a mode of operation in which the images recovered by the decoding unit 13 are converted into a corresponding video signal, which is supplied via the signal line 15.
  • the step 16 is the last step of the subprogram SP2.
  • a test step S7 is carried out to test whether the operating unit 25 supplies the "moving image" signal to the control unit 17. If this is not the case, the step S7 is followed by a subprogram SP3 to check if a subsequent or preceding still image is to be supplied, and if this is the case the desired image is located and read from the record carrier. After completion of the subprogram SP3 the program proceeds with the step S7. The program loop formed by the step S7 and the subprogram SP3 is repeated until the "moving image" signal is detected in the step S7. After detection of the "moving image” signal the step S7 is followed by a subprogram SP4, in which the second mode is discontinued.
  • This subprogram comprises a step S8, in which the image number of the last reproduced still image is determined. Subsequently, reading of the second data stream from the record carrier 8 is stopped in a step S9. The step S9 is the last step of the subprogram SP4. After termination of the subprogram SP4 a subprogram SP5 is carried out, in which the control unit 17 is reset to the first mode.
  • the subprogram SP5 begins with a step S10, in which on the basis of the image number of the last reproduced still image and of the entry-point table EPT the image number is determined of that coded image in the first data stream which contains all the information necessary to recover a complete image and which directly precedes the image in the first data stream which corresponds to the last reproduced still image.
  • step S11 the coded image in the first data stream with the image number thus determined is located and the read-out of the first data stream is started.
  • step S12 it is checked on the basis of the count of the image counter 54 whether the image corresponding to the last reproduced still image is already available on the output of the decoding unit 12. If it is available a step S13 is carried out, in which the image output unit 16 is set to a mode in which the images recovered by the decoding unit 12 are converted into a corresponding video signal, which is supplied via the signal line 15.
  • the step S13 is the last step of the subprogram SP5. After termination of the subprogram SP5 the program proceeds with the step S1.
  • the diagnostic system in accordance with the invention is particularly suitable for use in cardiac diagnosis.
  • a contrast medium is introduced into blood vessels of the heart, after which a series of radiographs of the heart is made.
  • cardiac diagnosis the image information is generally obtained in a number of so-called runs.
  • the length of a run is determined by the time required by the contrast medium to propagate in the blood vessels of the heart. This time is of the order of magnitude of ten seconds. With a customary number of 15 to 30 X-ray exposures per second this means that one run consists of approximately 150-300 images. Before a subsequent run can be carried out it is necessary to wait until the contrast medium has disappeared from the blood vessels. This means that a comparatively long time expires between successive runs.
  • Figure 4 shows an attractive layout of the track 30 in the case that the images are available in runs.
  • the image information files generated in different runs are recorded in track portions R1, R2, R3 and R4.
  • Each of the track portions contains an image information file for each of the data streams generated on the basis of the images obtained in the run.
  • each of the track portions R1, R2, R3 and R4 includes two image information files, i.e. one image information file for the first data stream and one image information file for the second data stream.
  • DS11 and DS21 are the image information files for the portion R1.
  • the image information file DS11 contains the first data stream and the image information file DS21 contains the second data stream.
  • the image information file DS21 comprises two subfiles (DS21a and DS21b).
  • the track portion in which the image information file DS11 is recorded is the portion between the portions in which the subfiles DS21a and DS21b are recorded.
  • the image information files in the other runs are recorded in a similar manner.
  • the image information file layout shown in Figure 4 has the advantage that if during the reproduction of moving-image information this reproduction is interrupted to read a still image to be recovered from the second data stream only a small distance has to be covered to move to the new read location, which results in a short access time.
EP19940202922 1993-10-14 1994-10-10 Verfahren zur Speicherung von kodierten Bilddaten Expired - Lifetime EP0649254B1 (de)

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BE9301087A BE1007658A3 (nl) 1993-10-14 1993-10-14 Werkwijze voor het in gecodeerde vorm opslaan van beeldinformatie van bewegende beelden, een diagnostisch systeem waarin de werkwijze wordt toegepast, alsmede een beeldcoderings- en optekeneenheid voor toepassing in een dergelijk systeem.
BE9301087 1993-10-14
EP93203173 1993-11-15
EP93203173 1993-11-15
EP19940202922 EP0649254B1 (de) 1993-10-14 1994-10-10 Verfahren zur Speicherung von kodierten Bilddaten

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US5884005A (en) * 1994-08-22 1999-03-16 U.S. Philips Corporation System for recording and displaying images on a record carrier in at least a first and a second data stream
DE10050951A1 (de) * 2000-10-13 2002-05-02 Image D C Gmbh Interfunctional Verfahren zur Erfassung, Organisation, Verarbeitung, Übertragung und Archivierung von ein- und mehrdimensionalen, digitalen Daten insbesondere stehender und bewegter Bilddaten
US6438532B1 (en) * 1997-01-25 2002-08-20 Kabushiki Kaisha Toshiba Adjustment rule generating and control method and apparatus

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EP0724810B1 (de) * 1994-08-22 2000-05-31 Koninklijke Philips Electronics N.V. Verfahren zur aufzeichnung und darstellung von bildern auf einem aufzeichnungsträger in mindestens einem ersten und einem zweiten datenstrom
US6438532B1 (en) * 1997-01-25 2002-08-20 Kabushiki Kaisha Toshiba Adjustment rule generating and control method and apparatus
DE10050951A1 (de) * 2000-10-13 2002-05-02 Image D C Gmbh Interfunctional Verfahren zur Erfassung, Organisation, Verarbeitung, Übertragung und Archivierung von ein- und mehrdimensionalen, digitalen Daten insbesondere stehender und bewegter Bilddaten

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